PHYSICAL BASES OF ELECTRONIC MEDICAL APPARATUS. SENSORA & AMPLIFIERS.
MEDICAL ELECTRODES & THEIR FORMS
MEDICAL ELECTRODES & THEIR FORMS
MEDICAL ELECTRODES & THEIR FORMS
TRANSDUCERS
ELECTRONIC AMPLIFIERS
AMPLIFIER SCHEME
AMPLIFIER CHARACTERISTIC
The frequency characteristic of the dc amplifier
ELECTRONIC STIMULATORS. PHYSIOTHERAPEUTICS.
IMPULSE SHAPE
IMPULSE
ELECTRONIC OSCILLATOR
STIMULATORS
ELECTRO PHYSIOTHERAPY
ELECTRO PHYSIOTHERAPY
AMPLIPULSE THERAPY
Diadynamic
Darsonvalization
Diathermy
Inductotermy
Microwave therapy
3.12M
Категория: МедицинаМедицина

Physical bases of electronic medical apparatus. Sensora & amplifiers

1. PHYSICAL BASES OF ELECTRONIC MEDICAL APPARATUS. SENSORA & AMPLIFIERS.

Lecture 9
Rieznyk A.Y.

2. MEDICAL ELECTRODES & THEIR FORMS

An electrode is an electrical conductor used to make
contact with a nonmetallic part of a circuit (e.g.
a semiconductor, an electrolyte or a vacuum). The word
was coined by the scientist Michael Faraday from the
Greek words elektron (meaning amber, from which the
word electricity is derived) and nodos, a way.

3. MEDICAL ELECTRODES & THEIR FORMS

Heart stimulator
electrodes
ECG electrodes
colposcopy-loop-electrodes

4. MEDICAL ELECTRODES & THEIR FORMS

5. TRANSDUCERS

A transducer is a device that converts one type
of energy to another. Energy types include (but are not
limited to) electrical,
mechanical, electromagnetic (including light), chemical, a
coustic or thermal energy. While the
term transducer commonly implies the use of a
sensor/detector, any device which converts energy can be
considered a transducer. Transducers are widely used in
measuring instruments.
Active (generative) transducer - can generate
electromotive force under the influence of
different non-electric energies (heat, etc.).
Passive (parametric) transducer – needs the power
supply (direct or alternating current).

6. ELECTRONIC AMPLIFIERS

7. AMPLIFIER SCHEME

8. AMPLIFIER CHARACTERISTIC

Frequency characteristic
1 - bandwidth, within which the
amplification is the same for signals of
different frequencies,
2 - low and high frequencies that are
outside the bandwidth, since
the amplification of the signal of frequency
decreases (obstruction characteristics).

9. The frequency characteristic of the dc amplifier

The frequency characteristic of the dc
amplifier differs from the characteristics
of an ac amplifier that has the
obstruction at low frequencies up to a
frequency equal to zero, which
corresponds to the dc

10.

Amplitude characteristic of the
amplifier shows the dependence of the
amplification coefficients on the amplitude
of the input signals. Amplification
characteristic requires the amplification
was the same for any input
signal amplitude. However,
this requirement can be fulfilled only
partially. Amplification can be only when
the amplitude of the input signal is within
a certain range, which is reflected in the
amplitude characteristic of the amplifiers.

11.

Block scheme of ECG
1. Protection circuit protects the input
circuits of the instrument from the
random effects of high voltage.
2. A switch lets you
choose lead electrodes that are
connected
to different leads to the amplifier
input.
3. Calibrator allows you to record the
amplitude of
1 mV calibration signal.
4. The preamplifier is designed
to enhance the initial ECG. Must
have a high input impedance and
bandwidth corresponding to the
ECG.
5. Block of insulation creates a barrier to DC between the chains attached to the patient, and the rest
of the circuit.
6. The output amplifier is designed to enhance the ECG to the level required for registration on
the recorder and the input of the memory block.
7. The memory block is used to store the recorded ECG, which had previously converted
Into digital form.
8. Recorder or printer used to print the ECG recording
9. The computer controls the work of the electrocardiograph as a whole through appropriate
programs.

12. ELECTRONIC STIMULATORS. PHYSIOTHERAPEUTICS.

Rieznyk A.

13. IMPULSE SHAPE

Electrical impulse – is a short burst of electrical
voltage or current in a short
period of time
Impulse shape:
Rectangular impulses
sawtooth impulses
triangular impulses
trapezoidal impulses
exponential impulses
Bell (bell-shaped) impulses
Sawtooth impulses

14. IMPULSE

To excite nervous or muscular cells , an
electrical impulse must have an
amplitude exceeding the threshold of
excitability, which is defined as the
minimum current strength that is
sufficient for the occurrence of Action
Potential. In addition, to cause excitement,
electrical impulse must have a certain
minimum duration.
The relationship between the threshold of
excitability and a minimum duration of the
exciting pulse is reflected in the Weiss Lapik
law:
I min
a
b
t
where Imin-threshold current,
t - duration of impulse action,
a and b -coefficients of
the resulting properties of the plasma
membrane of excitable cells.

15. ELECTRONIC OSCILLATOR

An electronic oscillator is an electronic
circuit that produces a repetitive electronic
signal, often a sine wave or a square wave.
They are widely used in innumerable
electronic devices. Common examples of
signals generated by oscillators include
signals broadcast by radio and television
transmitters, clock signals that regulate
computers and quartz clocks, and the sounds
produced by electronic beepers and video
games.
The harmonic, or linear,
oscillator produces
a sinusoidal output.
A relaxation oscillator produces a nonsinusoidal output, such as
a square, sawtooth or triangle wave. It
contains an energy-storing element
(a capacitor or, more rarely, an inductor) an
a nonlinear trigger circuit (a latch, Schmitt
trigger, or negative resistance element) tha
periodically charges and discharges the
energy stored in the storage element thus
causing abrupt changes in the output
waveform.

16. STIMULATORS

Myostimulators
Cardio stimulators
Nerve stimulator

17. ELECTRO PHYSIOTHERAPY

The use of electrotherapy has been researched and accepted in the field of
rehabilitation[ (electrical muscle stimulation). The American Physical Therapy Association
acknowledges the use of Electrotherapy for:
1. Pain management Improves range of joint movement
2. Treatment of neuromuscular dysfunction: Improvement of strength; Improvement of
motor control; Retards muscle atrophy; Improvement of local blood flow
3. Improves range of joint mobility: Induces repeated stretching of contracted, shortened
soft tissues
4. Tissue repair: Enhances microcirculation and protein synthesis to heal wounds; Restores
integrity of connective and dermal tissues
5. Acute and chronic edema: Accelerates absorption rate; Affects blood vessel permeability;
Increases mobility of proteins, blood cells and lymphatic flow
6. Peripheral blood flow: Induces arterial, venous and lymphatic flow
7. Iontophoresis: Delivery of pharmacological agents
8. Urine and fecal incontinence: Affects pelvic floor musculature to reduce pelvic pain and
strengthen musculature; Treatment may lead to complete continence
Electrotherapy is used for relaxation of muscle spasms, prevention and retardation of
disuse atrophy, increase of local blood circulation, muscle rehabilitation and reeducation electrical muscle stimulation, maintaining and increasing range of motion,
management of chronic and intractable pain, post-traumatic acute pain, post surgical acute
pain, immediate post-surgical stimulation of muscles to prevent venous thrombosis, wound
healing and drug delivery.

18. ELECTRO PHYSIOTHERAPY

Electro physiotherapy – is a method of
therapy using direct or alternating
current. There are two kinds of electro
physiotherapy: low frequency, highfrequency therapy and ultra-high
frequency therapy.
Low-frequency therapy: diadynamic,
amplipulse.
High-frequency therapy: diathermy, inductotermy, ultrahigh-frequency therapy.

19. AMPLIPULSE THERAPY

-analgesic effect;
-vasodilator action;
-hypotensive effect;
-anti-inflammatory effect;
-anti-edematous action;
-resolving the action;
-trophico stimulating effect;
-stimulation of striated and smooth muscles.
Amplipulse is a method of electro physiotherapy that effects on the
body for therapeutic purposes with sinusoidal modulated currents.
Sinusoidal modulated currents (SMC) is a mid-pulse AC (2-5
kHz)ting its amplitude. .

20. Diadynamic

Diadynamic - this method effects on organism with
the low-frequency current. Current frequency at 50 Example of ½ Wave
Hz, obtained from the network through a halfDiadynamic Stimulation Pattern
wave rectification of the current and the
current frequency of 100 Hz, obtained with the fullwave rectification. Its amplitude may change
periodically (modulated). This current has an
analgesic effect, activates blood
circulation and stimulates the metabolic processes in
tissues.
Example of Full Wave Diadynamic
Stimulation Pattern

21. Darsonvalization

Darsonvalization (named by one of the
founders of Physiotherapy - D'Arsonval) method of electro physiotherapy effects on
the skin or mucous membranes of
the weak high-frequency electrical impulses.

22. Diathermy

(Greek diathermaino
- heated) - this method of
deep tissue heating by electric
current of high frequency. The
effect is achieved by passing
through a patient's body
current with frequency 1 2 MHz, which doesn’t
excite tissues. Through the
use of metal
electrodes without spacers
current strength can reach 1.0 1.5 A, which provides large
amounts of
heat. However, direct
contact with the electrodes is
not fully secure, and therefore
nowdays diathermy is not
applied as a method of physical
therapy but surgery.
diathermy
Diathermy in surgery

23. Inductotermy

Inductotermy -method of Electro
physiotherapy, which includes impact
on patient's body with electromagnetic
field of high frequency. The main
advantage of this method is its
harmlessness as it is noncontact.

24. Microwave therapy

Microwave (MW) - is a therapy effects on the
body with electromagnetic waves of ultrahigh
frequency UHF (100 cm - 10
cm) or cm (10 cm - 1 cm) range. Energy of
electromagnetic waves is supplied to the
patient and sent using special emitters waveguides, which are tube shaped.
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